Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: CAS:111025-46-8 (Pioglitazone)
802 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective of this study was to determine whether improvements in the lipid profile observed in controlled clinical trials with pioglitazone are seen in the clinical practice setting, and to ascertain the influence of concurrent statin treatment. Charts of 100 consecutive patients with type 2 diabetes (mean age 56.8 years) treated with pioglitazone (45 mg/day) for 2-4 months were retrospectively analyzed for changes in serum lipids, glycemic parameters, and body weight. Subanalyses were performed on the relationship of lipid changes to baseline lipid values and to concurrent statin therapy. Pioglitazone was associated with statistically significant (p < 0.001) changes from baseline in HbA(1C) (mean decrease 1.09%), body weight (mean increase 1.76 kg), HDL cholesterol (HDL-C) levels (mean increase 15.6%), and triglycerides (mean decrease 9.9%). There was an increase (+ 1.09%) in mean individual LDL-C levels from baseline values, but this change was not statistically significant. The greatest absolute and percentage improvements in HDL-C and triglycerides were observed in patients who had the greatest lipid abnormalities at baseline: in patients with baseline HDL-C < 35 mg/dL, mean individual HDL-C values increased by 31% (p < 0.001); in those with baseline triglycerides >399 mg/dL, triglyceride levels decreased by 46% (p < 0.001); and in patients with baseline LDL-C > 129 mg/dL, mean individual LDL-C values decreased by 10.6% (p < 0.001). Subgroup analysis showed similar beneficial changes in HDL-C and triglycerides in patients who were not receiving concurrent statin therapy (n = 48) as in those who were receiving statins (n = 49). This observational study demonstrated that significant improvements in HDL-C and triglyceride levels can be achieved with pioglitazone in the clinical practice setting. The greatest improvements occurred in patients with the worst baseline lipid levels, and benefits were seen regardless of whether patients were receiving concurrent statin therapy.
Diabetes Technol Ther 2002
PMID:Lipid response to pioglitazone in diabetic patients: clinical observations from a retrospective chart review. 1207 18

Peroxisome proliferator-activated receptor-gamma (PPARgamma) ligands are widely used in patients with insulin resistance and diabetes. Because coronary artery disease is a major complication for such patients, it is important to determine the effects of PPARgamma activation on arteriosclerosis. Long-term inhibition of endothelial NO synthesis by administration of N(omega)-nitro-L-arginine methyl ester (L-NAME) to rats induces coronary vascular inflammation (monocyte infiltration, monocyte chemoattractant protein-1 [MCP-1] expression) and subsequent arteriosclerosis. We examined the effects of pioglitazone (a PPARgamma ligand) in this rat model to determine whether PPARgamma activation with pioglitazone inhibits arteriosclerosis by its indirect effects on metabolic conditions or by direct effects on the cells participating to the pathogenesis of arteriosclerosis. We found that pioglitazone did not affect metabolic states, systolic blood pressure, or serum NO levels, but did prevent the L-NAME-induced coronary inflammation and arteriosclerosis. Pioglitazone did not reduce local expression of MCP-1 but markedly attenuated increased expression of the MCP-1 receptor C-C chemokine receptor 2 (CCR2) in lesional and circulating monocytes. PPARgamma activation with pioglitazone prevented coronary arteriosclerosis, possibly by its antiinflammatory effects (downregulation of CCR2 in circulating monocytes). Inhibition of the CCR2-mediated inflammation may represent novel antiinflammatory actions of pioglitazone beyond improvement of metabolic state.
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PMID:Antiinflammatory and antiarteriosclerotic effects of pioglitazone. 1241 63

The incidence of diabetes mellitus is steadily increasing in the United States. Currently the United States spends approximately $100 billion in healthcare costs annually for the management of diabetes. Most of the costs are attributed to hospitalizations and treatment of diabetes complications. Preventing these complications with tight glycemic control is the key to reducing morbidity, mortality, and healthcare costs secondary to diabetes mellitus. Recently, the American College of Endocrinology also stressed earlier screening for diabetes and endorsed lowering the goal percent of hemoglobin glycosylation to 6.5%. These strategies help identify patients with diabetes at an earlier stage and in turn prevent more complications. Better control of diabetes is now feasible with the recent approval of 8 new antidiabetic products. Pioglitazone and rosiglitazone are agents with a novel mechanism of action. Metformin XR, insulin aspart, and miglitol are agents that are similar to previously marketed products, but have different pharmacokinetic or pharmacodynamic properties. Metformin/glyburide is the first combination product for the treatment of diabetes. Nateglinide represents the first agent in a new class of antidiabetic agents and insulin glargine is a novel insulin preparation. All of the agents have unique characteristics that may render them useful in specific patient populations.
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PMID:Therapeutic options for the management of type 2 diabetes mellitus. 1243 15

Insulin resistance is a characteristic feature of type II diabetes as well as obesity. This insulin resistant state at the peripheral tissue level causes impaired glucose utilization, leading to hyperglycemia. Studies of antidiabetic agents by Takeda originated more than three decades ago when KK mice were introduced, followed by the development of a highly insulin-resistant animal model, KKAy mice. The first 2,4-thiazolidinedione derivative AL-321, which exhibited hypoglycemic effects in KKAy mice, was discovered by modification of the hypolipidemic agent AL-294 as a lead compound. Extensive structure-activity relationship studies on the analogues of AL-321 led to the selection of ciglitazone (ADD-3878) as a candidate for clinical evaluation. Ciglitazone, a prototypical compound in the series, was shown to normalize hyperglycemia, hyperinsulinemia, and hypertriglyceridemia in various insulin-resistant animal models without altering normoglycemia in nondiabetic animal models. However, it appeared that a more potent compound was needed for further clinical evaluation of this class of compound. Further study of this series of compounds led to the finding of pioglitazone (AD-4833) as a promising clinical candidate. Pioglitazone clearly ameliorates the abnormal glucose and lipid metabolism in diabetic patients and was marketed in the USA in August 1999 for the treatment of type II diabetes. Pioglitazone is now marketed in more than 40 countries world wide. Historical aspects of our studies on pioglitazone and its biological activities are described.
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PMID:[Discovery and development of a new insulin sensitizing agent, pioglitazone]. 1244 Jan 49

(1) Treatment of type 2 (non insulin-dependent) diabetes is based on lifestyle measures and management of cardiovascular risk. (2) The reference first-line drug therapy for type 2 diabetes, when drug therapy is needed, is single-agent treatment with metformin (a biguanide) for overweight patients, or with glibenclamide (a glucose-lowering sulphonylurea) for other patients. (3) If monotherapy fails to control blood glucose levels adequately, most clinical guidelines then recommend a combination of metformin with a glucose-lowering sulphonylurea, although the few available comparative clinical data raise the possibility of excess mortality with this treatment. (4) Rosiglitazone and pioglitazone (glitazones that reduce insulin resistance) have been authorized in the European Union for combination with a glucose-lowering sulphonylurea (for patients in whom metformin is ineffective or poorly tolerated) or with metformin (for obese patients). (5) None of the available trials of rosiglitazone and pioglitazone include data on mortality or morbidity. (6) There are fewer data on pioglitazone than on rosiglitazone. (7) According to short-term comparative trials, rosiglitazone and pioglitazone are more effective than placebo on blood glucose levels. Combinations of rosiglitazone or pioglitazone with metformin or with glucose-lowering sulphonylureas have not been compared with the metformin + glucose-lowering sulphonylurea combination or with insulin. (8) Rosiglitazone and pioglitazone frequently cause weight gain. (9) Pioglitazone has a slightly favourable effect on lipid profiles, unlike rosiglitazone, which increases LDL-cholesterol levels. (10) The main side effect of rosiglitazone and pioglitazone is sodium and water retention, which can provoke oedema, anaemia (by haemodilution), and even heart failure. Rosiglitazone and pioglitazone are also hepatotoxic. (11) Combining rosiglitazone with insulin is contraindicated, owing to the increased risk of heart failure. The same applies to pioglitazone. (12) In practice, neither rosiglitazone nor pioglitazone has a place in the management of type 2 diabetes, except in the context of strictly controlled long-term comparative clinical trials.
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PMID:Rosiglitazone and pioglitazone: new preparations. Two new oral antidiabetics both poorly assessed. 1246 95

The autoimmune process is one of the etiological factors of diabetes in humans. Thiazolidinediones, which act through peroxisome proliferator-activated receptor-gamma, have been recently used to prevent diabetic-associated complications in patients with diabetes and insulin resistance. In the present study, we investigated the effect of pioglitazone on the diabetes induced by multiple low-dose streptozotocin (MLDS) in rats. When Sprague-Dawley rats were injected intraperitoneally with a sub-diabetogenic dose of streptozotocin (STZ; 40 mg/kg/day) for a period of 5 days, they developed hyperglycemia 2 days after posttreatment. Pioglitazone (6 mg/kg) administered orally for 7 days before the first dose of STZ prevented or delayed the development of MLDS-induced diabetes compared with the group treated only with STZ. Pioglitazone treatment showed no effect on plasma glucose levels in the control group. These findings suggest that pioglitazone prevented the autoimmune process involved in the development of MLDS-induced diabetes by decreasing glucose levels in rats.
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PMID:Protective effect of pioglitazone against multiple low-dose streptozotocin-induced diabetes in rats. 1274 25

Although thiazolidinediones and magnesium supplementation improves insulin action and increases HDL-cholesterol, the potential link between serum magnesium and thiazolidinediones has received little attention. Focusing on the increase of serum magnesium, 63 eligible subjects were enrolled and randomly allocated to receive either 30 mg Pioglitazone once daily (Group A) or lifestyle intervention (Group B) during 12 weeks. Subjects were eligible if they were glucose-intolerant, and excluded if they had high blood pressure, diabetes or abnormal liver function tests. The personnel assessing outcomes were blinded to group assignment. Of the 63 eligible subjects, 3 dropped out (one in group A, and two in Group B) because they moved out of the city. So, 30 subjects in each group, who satisfactorily completed the follow-up, were included in the analysis of data. There were no serious adverse events or side effects due to Pioglitazone or lifestyle intervention. At baseline, the groups did not differ significantly in serum magnesium levels 1.73 +/- 0.17 versus 1.72 +/- 0.14 mg/dl, p = 0.80. Subjects who received Pioglitazone significantly increased their serum magnesium to 1.93 +/- 0.16 mg/dl whereas in the lifestyle intervention group the increase was 1.74 +/- 0.25 mg/dl, p < 0.0001. What this study showed was a significant increase in the serum magnesium levels of glucose-intolerant subjects who received 30 mg Pioglitazone once daily.
Exp Clin Endocrinol Diabetes 2003 Apr
PMID:Pioglitazone increases serum magnesium levels in glucose-intolerant subjects. A randomized, controlled trial. 1274 60

The effect of pioglitazone on splanchnic glucose uptake (SGU), endogenous glucose production (EGP), and hepatic fat content was studied in 14 type 2 diabetic patients (age 50 +/- 2 years, BMI 29.4 +/- 1.1 kg/m(2), HbA(1c) 7.8 +/- 0.4%). Hepatic fat content (magnetic resonance spectroscopy) and SGU (oral glucose load- insulin clamp technique) were quantitated before and after pioglitazone (45 mg/day) therapy for 16 weeks. Subjects received a 7-h euglycemic insulin (100 mU. m(-2). min(-1)) clamp, and a 75-g oral glucose load was ingested 3 h after starting the insulin clamp. Following glucose ingestion, the steady-state glucose infusion rate during the insulin clamp was decreased appropriately to maintain euglycemia. SGU was calculated by subtracting the integrated decrease in glucose infusion rate during the 4 h after glucose ingestion from the ingested glucose load. 3-[(3)H]glucose was infused during the initial 3 h of the insulin clamp to determine rates of EGP and glucose disappearance (R(d)). Pioglitazone reduced fasting plasma glucose (10.0 +/- 0.7 to 7.5 +/- 0.6 mmol/l, P < 0.001) and HbA(1c) (7.8 +/- 0.4 to 6.7 +/- 0.3%, P < 0.001) despite increased body weight (83 +/- 3 to 86 +/- 3 kg, P < 0.001). During the 3-h insulin clamp period before glucose ingestion, pioglitazone improved R(d) (6.9 +/- 0.5 vs. 5.2 +/- 0.5 mg. kg(-1). min(- 1), P < 0.001) and insulin-mediated suppression of EGP (0.21 +/- 0.04 to 0.06 +/- 0.02 mg. kg(-1). min(-1), P < 0.01). Following pioglitazone treatment, hepatic fat content decreased from 19.6 +/- 3.6 to 10.4 +/- 2.1%, (P < 0.005), and SGU increased from 33.0 +/- 2.8 to 46.2 +/- 5.1% (P < 0.005). Pioglitazone treatment in type 2 diabetes 1) decreases hepatic fat content and improves insulin-mediated suppression of EGP and 2) augments splanchnic and peripheral tissue glucose uptake. Improved splanchnic/peripheral glucose uptake and enhanced suppression of EGP contribute to the improvement in glycemic control in patients with type 2 diabetes.
Diabetes 2003 Jun
PMID:Pioglitazone reduces hepatic fat content and augments splanchnic glucose uptake in patients with type 2 diabetes. 1276 45

Chronic treatment with compounds activating peroxisome proliferator-activated receptor (PPAR)gamma and -alpha influences body energy stores, but the underlying mechanisms are only partially known. In a chronic-dosing study, equiefficacious antihyperglycemic doses of the PPAR gamma agonist pioglitazone and PPAR alpha/gamma dual activator ragaglitazar were administered to obesity-prone male rats. The PPAR alpha agonist fenofibrate had no effect on insulin sensitivity. Pioglitazone transiently increased and fenofibrate transiently decreased food intake, whereas ragaglitazar had no impact on feeding. As a result, body adiposity increased in pioglitazone-treated rats and decreased in fenofibrate-treated rats. PPAR gamma compounds markedly increased feed efficiency, whereas PPAR alpha agonist treatment decreased feed efficiency. In fenofibrate-treated rats, plasma acetoacetate was significantly elevated. Plasma levels of this potentially anorectic ketone body were unaffected in pioglitazone- and ragaglitazar-treated rats. High-fat feeding markedly increased visceral fat pads, and this was prevented by pioglitazone and ragaglitazar treatment. Pioglitazone treatment enlarged subcutaneous adiposity in high-fat-fed rats. In conclusion, PPAR gamma activation increases both food intake and feed efficiency, resulting in net accumulation of subcutaneous body fat. The impact of PPAR gamma activation on feeding and feed efficiency appears to be partially independent because the PPAR alpha component of ragaglitazar completely counteracts the orexigenic actions of PPAR gamma activation without marked impact on feed efficiency.
Diabetes 2003 Sep
PMID:Differential influences of peroxisome proliferator-activated receptors gamma and -alpha on food intake and energy homeostasis. 1294 63

Impaired homeostasis under diabetic conditions is connected with the increased production of free radicals and deficiency of antioxidative systems. The aim of this study was to analyze the effect of new oral antidiabetic drug-pioglitazone on activity of antioxidant factors and lipid peroxidation in vivo. The liver and kidney of alloxan-induced diabetic rabbits were examined after 4 and 8 weeks of treatment. After 4 weeks of diabetes the superoxide dismutase (Cu,Zn-SOD) activity in the liver was diminished while the catalase (CAT) activity and the level of ascorbic acid (AA) were elevated in comparison with the control group. Pioglitazone treatment during 4 weeks decreased the catalase activity in relation to the control diabetic animals. After 8 weeks of diabetes the CAT activity in the liver was elevated in comparison with the control group. Pioglitazone treatment during 8 weeks decreased the CAT activity and the level of lipid peroxidation products (LPO), and increased the Cu,Zn-SOD activity in relation to control diabetic animals. After 4 weeks of diabetes in the kidney the Cu,Zn-SOD activity and the level of ascorbic acid (AA) were diminished while the CAT activity and the LPO level were elevated in comparison with the control group. Pioglitazone treatment during 4 weeks increased the AA and decreased the LPO levels in relation to non-treated diabetic animals. After 8 weeks of disease the Cu,Zn-SOD activity in the kidney was diminished in comparison with the control group. Pioglitazone during 8 weeks decreased the LPO level in relation to non-treated diabetic animals. This study shows that diabetic animals undergo an important oxidative stress, which is partially corrected by pioglitazone treatment.
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PMID:Effect of the new thiazolidinedione-pioglitazone on the development of oxidative stress in liver and kidney of diabetic rabbits. 1462 26


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